TwinScope 3-D viewer
A stereoscope is used for viewing a stereographic pair of images that are placed side-by-side on a card or presented on a digital screen. A lens board has left and right apertures defining a horizontal base line. A pair of prismatic lenses are fitted into the left and right apertures, respectively. A stem or handle projects from the lens board in the plane of the lens board midway between the apertures and perpendicular to the base line. A removable opaque synthetic rubber hood is fitted onto the lens board and has eye covers of generally tubular shape.
Priority is claimed under 35 U.S.C. 119(e) of provisional U.S. Patent Application Ser. No. 62/083,008, filed Nov. 21, 2014.
BACKGROUND OF THE INVENTIONStereographs (also known by names such as stereograms, stereo views, stereo cards stereoscopic cards, etc.) were a popular hand-held amusement between 1850-1930. Stereographs were made by taking two photographs of the same scene at positions separated by a distance roughly equivalent to the distance between the eyes. The photographs were then pasted side-by-side onto a heavy card measuring roughly 3.5 inches high×7 inches wide. Viewed through a stereoscope, one saw the illusion of a 3D image similar to normal binocular vision. Today, stereographs can be found in the archives of museums and libraries, as well as in antique stores and attics. They are beloved by collectors and are enjoying a comeback in this age of 3D movies and TV. Some contemporary artists also make images in the stereograph format.
The Holmes-type stereoscope, designed by Oliver Wendell Holmes in 1859 and copied by many manufacturers, was the common device for viewing stereographs. Although long-regarded as the best solution for stereograph viewing due to its fine optics, light-blocking lens hood, and easy focusing, the Holmes viewer is seldom available for use in public archives because it is a fragile antique, vulnerable to wear. Sometimes a Holmes viewer is included in an exhibition with a stereograph in its holder, but usually this configuration is inside a display case and not intended for functional use. Most importantly in relation to my invention, the Holmes viewer was designed for hand-held viewing of stereographs and is altogether useless for viewing stereographs that are framed or in exhibition cases. In this form of presentation, oftentimes no viewer is provided, although sometimes inferior viewers are utilized (such as lorgnettes which have poor optics, lack a lens hood and are difficult to use).
OBJECTS AND SUMMARY OF THE INVENTIONThe invention, the TwinScope Viewer, is a stereoscope or three-dimensional viewer that addresses these problems and gives other improvements for the viewing of stereographs or other side-by-side stereoscopic images that have a combined width of not more than eight inches. The TwinScope Viewer was originally conceived as an elegant, easy-to-use hanging stereoscope that borrowed some features from the Holmes viewer (namely, high-quality prismatic lenses and a lens hood) for viewing stereographs that are framed or in display cases. However, the TwinScope Viewer is also an excellent replacement for the Holmes viewer for hand-held viewing, with the advantages of being more rugged, fitting over eye glasses, and not requiring that stereographs be placed into metal holders that can damage the card edges. The TwinScope 3-D Viewer can also be used for viewing stereo images in a variety of other applications, for example as presented side-by-side on the screen of a smart phone or tablet.
With reference to the Drawing and initially to
Here the stereoscope has a lens board 12 that is formed of three flat members that are cemented together (as shown in
The stereoscope 10 can be made in a variety of materials if desired, e.g. a durable plastic resin or a metal such as an aluminum alloy. The following preferred embodiment describes a stereoscope made of synthetic rubber and wood.
A hood 22 molded of synthetic rubber has an oval overall shape, with generally tubular eye cups or lens barrels 24 at the proximal side only (the side facing the user) to shield the eyes from stray light and to separate the views, ensuring that the left eye sees the left view and the right eye sees the right view, and leaving the portion at the far side of the lens board open. Slots 26A and 26B at the upper and lower sides accommodate the lens board 12, as shown so that the hood 22 and lens board 12 hold one another in place. One slot 26A lodges onto the stem or handle 18 that projects out the slot 26A in the plane of the lens board 32, and a ridge or flange 32A on the other (upper) edge of the lens board (as shown in
As shown in
In order to create an ideal 3D illusion, a precise distance is given between the lenses, and the dimensions of the windows cut into the lens boards are specially designed. The three boards 30, 32, 34 each have respective lens openings 14A, 14B, 14C which are generally in registry with one another, except that the proximal board openings 14C are not as wide and the inner edges are farther out from center than in the distal board openings 14A. This configuration mitigates ghosting, i.e., seeing a portion of the image to the sides of the 3D image (a problem with Holmes viewers), giving instead the illusion of a single 3D image with only a frame edge around it (said frame being the card stock or whatever material immediately abuts the images). The lenses themselves are of a square shape but otherwise have generally spherical surfaces but also with a somewhat wedge or prism shape to bend the images toward the eyes. One of the lens board openings, e.g. openings 14C, can have ledges or shoulders to help hold the respective lenses 16 in place.
As shown in
When using a stereoscope to look at a stereograph that cannot be held in the hand, as in
Whether focusing with the stein in the upward or downward position, focal distance is individual for each user, but is typically between six and eight inches away.
The lens barrels or eye covers 24 of the hood 22 are designed to fit over eyeglasses if worn by the user, so the user does not have to remove his or her eyeglasses when using the TwinScope Viewer. Also, the design of the stereoscope is generally symmetrical (except for the stem 18) relative to the horizontal base line through the lens openings 14, and the stereoscope can be used either with the stem up or with the stem down, depending upon the user's preference. In these examples, it is possible to use the viewer without the hood 22 in place.
Unlike previous viewers such as the Holmes stereoscope, the stereoscope of this invention does not have a rod or holder extending forward, nor metal brackets to hold the stereograph. The absence of any forward protuberance allows the TwinScope Viewer to be used with stereo images that are not hand-held (the stereoscope does not actually contact the stereo image). The lack of metal brackets protects the stereograph from wear and potential damage caused by placing the stereograph in and out of said brackets.
There are many variations possible without departing from the main principles stereoscope is constructed or the ways in which it is used.
Claims
1. A stereoscope configured for viewing a pair of images that are placed side-by-side, comprising
- a lens board having left and right apertures defining a horizontal base line, said lens board defining a plane;
- a pair of prismatic lenses fitted into the left and right apertures, respectively;
- a stem portion unitary with said lens board and projecting from the lens board in the plane of the lens board midway between the apertures and perpendicular to said base line;
- wherein said stem portion has a horizontal slot extending through said stem and partway across the stem, and said horizontal slot being configured to receive a wall hook therethrough, whereby the stereoscope can be suspended on a wall or pedestal; and
- wherein said lens board has an aperture formed therein on an edge opposite to said stem portion, and said stereoscope further comprising a chain or cable connected at one end to said aperture in said lens board and connected at an opposite end to an anchor point on said wall or pedestal.
2. A stereoscope according to claim 1 further comprising a hood fitted onto said lens board and including left and right separate eye covers of generally tubular shape extending proximally in respect to said lens board only on the proximal side of said lens board.
3. A stereoscope according to claim 2 wherein said hood is molded of a flexible synthetic rubber.
4. A stereoscope according to claim 3 wherein said hood has upper and lower transverse slots adapted to lodge onto upper and lower edges of the lens board for removably retaining the hood on the lens board.
5. A stereoscope according to claim 1 wherein said lens board is formed of a distal lens board component, a central lens board component, and a proximal lens board component, the lens board components being affixed to one another and each having left and right lens openings with the left lens openings of the three board components aligned with one another and the right lens openings of the three board components aligned with one another, and with said lenses being secured therein between the proximal and distal lens board components.
6. A stereoscope according to claim 5 wherein said stem portion is formed unitarily with said central lens board component.
7. A stereoscope according to claim 6 wherein said distal and proximal lens board components are of wood with a grain direction running horizontally, and said central board component is of wood with its grain direction running vertically.
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Type: Grant
Filed: Nov 18, 2015
Date of Patent: Mar 6, 2018
Patent Publication Number: 20160147077
Inventor: Colleen Woolpert (Syracuse, NY)
Primary Examiner: Stephone B Allen
Assistant Examiner: Jyotsna Dabbi
Application Number: 14/944,966
International Classification: G02B 27/22 (20060101);